Potassium carbonylating reagent

Carbohydrate lactones have been used as the carbonyl reagent in the Reformatsky reaction. Thus, 2,3 5,6-di-O-cyclohexylidene-D-mannono-1,4-lactone [44, obtained by oxidation of the mannofuranose derivative (49)] reacted with ethyl bromoacetate and zinc to give the protected 2-deoxy-3-octulosonic acid ethyl ester (45a) in 69% yield (50). Ketonic hydrolysis with potassium hydroxide in aqueous methanol, followed by acidification and heating, afforded the 1-deoxyheptulose derivative 45b. Similarly, starting from compound 44, the 1-C-substituted allyl and propar-gyl lactols were prepared on reaction with allyl or propaigyl bromides in the presence of zinc (51). 

Chemical inhibition of L-phenylalanine ammonia lyase activity may be achieved by the use of typical carbonyl reagents such as sodium borohydride and potassium cyanide. Treatment of the enzyme with tritiated sodium borohydride and subsequent hydrolysis gave alanine in which the majority of the radioactivity was confined to the jj-methyl group . Similarly reaction with potassium cyanide and hydrolysis gave aspartic acid labelled exclusively in the -carboxyl group . These observations led to the proposal that the active site of the enzyme, like that of the related L-histidine ammonia lyase , contains a dehydro-alanine residue... 

Supercritical CO2 also played a role of medium and carbonylating reagent in the reaction with 1,2-diamines under the PEG-supported potassium hydroxide catalysis providing cyclic ureas 23 and 24 (Scheme 14) [31]. The reaction proceed with satisfactory yields and did not require addition of any dehydrating reagent. The catalyst was reported to be reusable for at least five runs without substantial loss of the activity. 

With substances that give up an electron more readily than aromatic hydrocarbons, such as potassium, nickel carbonyl, cyanide ion, or iodide ion, complete transfer of an electron occurs and the TCNE anion radical is formed (11). Potassium iodide is a particulady usefiil reagent for this purpose, and merely dissolving potassium iodide in an acetonitrile solution of TCNE causes the potassium salt of the anion radical to precipitate as bronze-colored crystals. 

Isatin (190) is a compound with interesting chemistry. It can be iV-acetylated with acetic anhydride, iV-methylated via its sodium or potassium salt and O-methylated via its silver salt. Oxidation of isatins with hydrogen peroxide in methanolic sodium methoxide yields methyl anthranilates (81AG(E)882>. In moist air, O-methylisatin (191) forms methylisatoid (192). Isatin forms normal carbonyl derivatives (193) with ketonic reagents such as hydroxylamine and phenylhydrazine and the reactive 3-carbonyl group also undergoes aldol condensation with active methylene compounds. Isatin forms a complex derivative, isamic acid (194), with ammonia (76JCS(P1)2004). 

Cellobiose was prepared first by Skraup and Konig by the saponification of the octaacetate with alcoholic potassium hydroxide, and the method was improved by Pringsheim and Merkatz.3 Aqueous barium hydroxide also has been employed for the purpose, and methyl alcoholic ammonia has been used extensively for the hydrolysis of carbohydrate acetates. The method of catalytic hydrolysis with a small quantity of sodium methylate was introduced by Zemplen,i who considered the action to be due to the addition of the reagent to the ester-carbonyl groups of the sugar acetate and the decomposition of the addition compound by reaction with alcohol. The present procedure, reported by Zemplen, Gerecs, and Hadacsy, is a considerable improvement over the original method (see Note 2). 

Thus, the allyllithium, -sodium or -potassium derivatives are the ones which are most easily generated (Section D.1.3.3.3.1.1.), but they are of limited value in stereoselective carbonyl addition reactions. Usually these reagents need to be tuned" in their reactivity by metal exchange prior to application in order to achieve high selectivities. 

Unsubstituted or alkyl-substituted 2-alkenyllithium, -sodium and -potassium derivatives are of little value in stereoselective carbonyl addition reactions. In general, these reagents exhibit high... 

Two alternatives to conventional acid/base hydrolyses for cleaving esters are Sn2 displacement of the carboxylate group by reactive nucleophiles and nucleophilic attack at the carbonyl carbon. In this latter context we investigated the reaction of S-b-MM with potassium trimethylsilanolate, a so-called potassium superoxide equivalent (15). One advantage that this reagent has over potassium... 

An interesting deoxygenation of ketones takes place on treatment with low valence state titanium. Reagents prepared by treatment of titanium trichloride in tetrahydrofuran with lithium aluminum hydride [205], with potassium [206], with magnesium [207], or in dimethoxyethane with lithium [206] or zinc-copper couple [206,209] convert ketones to alkenes formed by coupling of the ketone carbon skeleton at the carbonyl carbon. Diisopropyl ketone thus gave tetraisopropylethylene (yield 37%) [206], and cyclic and aromatic ketones afforded much better yields of symmetrical or mixed coupled products [206,207,209]. The formation of the alkene may be preceded by pinacol coupling. In some cases a pinacol was actually isolated and reduced by low valence state titanium to the alkene [206] (p. 118). 

The key reagents for the deprotonation of esters, acids and carbonyl compounds in general are the hindered metal amides, such as lithium diisopropylamide (1), lithium cyclohexyliso-propylamide (2) and lithium, sodium and potassium hexamethyldisilazanides (3). 

The most widespread complexes of cyclic pnictogen anions are those containing the planar six 71-electron ligand cyclo-Ps (isovalent with [CsHs] ). The potassium salt of this anion is obtained in solution by the reaction of red phosphorus with KPH2 in boiling DMF " this reagent can be used for the direct synthesis of tj -Ps complexes of metal carbonyls [eqns (11.2a) (M = Cr, Mo, W) and (11.2b)]. " An intriguing example of... 

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